The backoff code assumed that yang operations always completed quickly.
It checked for > 100 YANG modeled commands happening in under 1 second
to enable batching. If 100 yang modeled commands always take longer than
1 second batching is never enabled. This is the exact opposite of what
we want to happen since batching speeds the operations up.
Here are the results for libyang2 code without and with batching.
| action | 1K rts | 2K rts | 1K rts | 2K rts | 20k rts |
| | nobatch | nobatch | batch | batch | batch |
| Add IPv4 | .881 | 1.28 | .703 | 1.04 | 8.16 |
| Add Same IPv4 | 28.7 | 113 | .590 | .860 | 6.09 |
| Rem 1/2 IPv4 | .376 | .442 | .379 | .435 | 1.44 |
| Add Same IPv4 | 28.7 | 113 | .576 | .841 | 6.02 |
| Rem All IPv4 | 17.4 | 71.8 | .559 | .813 | 5.57 |
(IPv6 numbers are basically the same as iPv4, a couple percent slower)
Clearly we need this. Please note the growth (1K to 2K) w/o batching is
non-linear and 100 times slower than batched.
Notes on code: The use of the new `nb_cli_apply_changes_clear_pending`
is to commit any pending changes (including the current one). This is
done when the code would not correctly handle a single diff that
included the current changes with possible following changes. For
example, a "no" command followed by a new value to replace it would be
merged into a change, and the code would not deal well with that. A good
example of this is BGP neighbor peer-group changing. The other use is
after entering a router level (e.g., "router bgp") where the follow-on
command handlers expect that router object to now exists. The code
eventually needs to be cleaned up to not fail in these cases, but that
is for future NB cleanup.
Signed-off-by: Christian Hopps <chopps@labn.net>
the config for dynamic candidate paths with bandwidth preferences
was using a different order of keywords (required bandwidth X) than
the corresponding command (bandwidth X required). This confuses
frr-reload, and possibly users too. Make both use the same order.
Signed-off-by: Emanuele Di Pascale <emanuele@voltanet.io>
There are two possible use-cases for the `vrf_bind` function:
- bind socket to an interface in a vrf
- bind socket to a vrf device
For the former case, there's one problem - success is returned when the
interface is not found. In that case, the socket is left unbound without
throwing an error.
For the latter case, there are multiple possible problems:
- If the name is not set, then the socket is left unbound (zebra, vrrp).
- If the name is "default" and there's an interface with that name in the
default VRF, then the socket is bound to that interface.
- In most daemons, if the router is configured before the VRF is actually
created, we're trying to open and bind the socket right after the
daemon receives a VRF registration from zebra. We may not receive the
VRF-interface registration from zebra yet at that point. Therefore,
`if_lookup_by_name` fails, and the socket is left unbound.
This commit fixes all the issues and updates the function description.
Suggested-by: Pat Ruddy <pat@voltanet.io>
Signed-off-by: Igor Ryzhov <iryzhov@nfware.com>
Return SUCCESS if trying to delete route that doesn't exist.
This was always staticd's behavior before the northbound
conversion.
Signed-off-by: Mark Stapp <mjs@voltanet.io>
Ensure that if allocated route is not added to a table then it is
deleted to avoid leaking memory.
Add a new memory type for route table so that ospf6 routes can be
distinguished in the show memory output in isolation.
Signed-off-by: Pat Ruddy <pat@voltanet.io>
